Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.
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Electrical contact element
Description
The invention relates to an electrical contact element in accordance with the
preamble of the independent claim 1.
Contact elements of this type are required in order to produce an electrically
conductive connection between two electrical conductors. Typically, one or
multiple contact elements are received in a combined manner in an insulating
body and thus form a plug connector.
The object of the electrical contact elements is on the one hand to produce a
connection to a contact element of a mating plug connector. For this purpose,
a
plugging side of electrical contact elements of this type is embodied as a pin
or
socket contact. In each case, a socket contact can be plugged together with a
pin contact and an electrical connection can be produced in this manner.
On the other hand, it is necessary for an electrical contact element of this
type to
produce a connection to an electrical conductor. For this purpose, the
electrical
contact element comprises a connecting side. There is a plurality of solutions
in
the prior art for the embodiment of the connecting side.
Prior art
DE 1 164 532 A discloses a reversible contact element for electrical plug
devices having a plugging side and a connecting side. The connecting side is
embodied as a simple soldering lug. An electrical conductor that is to be
contacted can be soldered on to the soldering lug that is embodied as a
connecting link.
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DE 1 135 072 B discloses a flat contact element for electrical plug devices
that
for the purpose of producing the plug connection to its mating contact element
is
brought together at an angle of 90 . The contact element that is embodied as a
bending sheet metal part comprises on its connecting side multiple sheet metal
connecting links that are provided so as to crimp an electrical conductor that
is
to be connected thereto.
DE 1 992 567 U1 discloses a contact element that is embodied from a solid
material and is provided with a connecting pin or plug socket, said contact
element being suited for fastening in an interlocking and latching manner, in
an
easily detachable manner in chambers in insulating housing that is produced in
a single part manner. The contact element comprises on its connecting side a
line connecting part that is provided for a crimp connection to a line that is
connected thereto.
Crimp connectors of this type have shown themselves to be particularly
advantageous. The connecting side of the contact element is produced in a
particularly simple and cost-effective manner and a contact to a corresponding
crimping tool can be simultaneously produced above all in a simple and rapid
manner. This offers above all a particular advantage with respect to a
soldered
connection as in DE 1 164 532 A as described in the introduction in terms of
the
flexibility with regards to assembling and connecting a conductor to the
contact
elements.
The disadvantage in the case of alternative solutions known from the prior art
relating to solder connections is that these solutions are not suitable for
aluminum conductors. It is known that aluminum oxidizes immediately upon
exposure to air. The layer of oxide that forms on the aluminum during
oxidization
restricts the electrical conductivity.
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The contact of an electrical conductor that is embodied from aluminum is
consequently not sufficient for the connecting possibilities that are known
from
the prior art. The electrical conductor is crimped and the layer of oxide
between
the electrical conductor and the connecting side of the electrical contact is
compressed by means of a crimp connection.
Above all in the case of contacting aluminum conductors that comprise a
plurality of fine strands, a good electrical contact can no longer be ensured
as a
result of the many layers of oxide on the individual strands.
Object of the invention
The object of the invention is to embody an electrical contact element in such
a
manner that it is possible to ensure a reliable and electrically conductive
contact
of aluminum conductors.
The object is achieved by means of the characterizing features of the
independent
claim 1.
Advantageous embodiments of the invention are disclosed in the dependent
claims.
The invention relates to an electrical contact element that is provided so as
to
contact and to electrically connect an electrical conductor. Expediently, the
electrical contact element comprises a plugging side and a connecting side.
The plugging side of the electrical contact element - as is previously
disclosed
multiple times in the prior art - is embodied as a pin contact or socket
contact. It is
thus possible to produce an electrically conductive plug connection by means
of
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bringing together an electrical contact element having a pin contact and a
further
electrical contact having a socket contact.
The connecting side of the electrical contact element is formed as sleeve
shaped
and forms a connecting sleeve. In this connecting sleeve it is possible for an
electrical conductor to be inserted and to be crimped by means of a so-called
crimping tool in the connecting sleeve. This type of crimp-connection is
disclosed in
multiple cases in the prior art.
The present invention is provided specifically for electrical conductors that
are
embodied from aluminum and comprise a plurality of strands. For this purpose,
the
electrical contact element comprises a splicing element that is provided in
the
connecting sleeve of the electrical contact element. The splicing element
comprises at least two splicing segments that are arranged distributed around
the
circumference of the inner side of the connecting sleeve.
The splicing segments are preferably tapered elements that are facing radially
inwards. A form of wedge shape is particularly advantageous. The purpose of
the
splicing segments is to penetrate between the individual strands of an
inserted
electrical conductor during the squeezing action.
When penetrating between the individual strands of an aluminum conductor, the
splicing segments break the layer of oxide that has formed on each individual
strand of the conductor. A good electrical contact of the individual strands
is thus
ensured.
In a particularly advantageous embodiment, the surfaces of the splicing
segments
are provided with a rough surface. This rough surface is used to break the
layer of
oxide on the strands in a particularly effective manner.
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The splicing element can comprise a different number of splicing segments
depending upon the embodiment and diameter of the electrical contact element.
A
splicing element having six splicing segments is thus for example particularly
advantageous.
In one embodiment variant, the splicing segments are produced as a single part
directly with the connecting sleeve. Said splicing segments can be arranged as
wedges that are formed on the inner surface in the connecting sleeve. When
squeezing or crimping an electrical conductor in the connecting sleeve, the
splicing
segments are pressed between the individual strands of the conductor.
A further, advantageous embodiment provides the splicing element as a separate
component. The splicing element comprises a base and the individual splicing
elements are formed on said base. It is preferred that the splicing element is
to be
positioned in the connecting sleeve in such a manner that the base is
displaced
forwards in the connecting sleeve and the splicing segments protrude from the
interior in the direction of the open end of the connecting sleeve but are
however
also received in the connecting sleeve.
When assembling an electrical contact element of this type having separate
splicing elements, the splicing element is first of all to be pushed over the
exposed
strands of the electrical conductor. The splicing element makes the individual
strands separate out in such a manner that said strands distribute themselves
between the splicing segments.
The end of the electrical conductor can subsequently be pushed together with
the
plugged-on splicing element into the connecting sleeve. The splicing segments
are
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subsequently further driven between the strands by means of squeezing the
connecting sleeve with pliers or a special crimping tool. As a consequence,
the
layer of oxide on the surface of the strands is broken and an electrical
contact of a
plurality of strands is ensured.
In a preferred embodiment of the electrical contact element having a separate
splicing element, a fastening means is provided that is used to fix the
splicing
element in the connecting sleeve. For this purpose, a connecting bore hole is
provided between the plugging side and connecting side in the electrical
contact
element and it is possible for the fastening means to act upon the splicing
element
through said bore hole.
It is expedient to use a screw as a fastening element. Said screw can be
pushed
from the direction of the plugging side through the connecting bore hole and
can
engage in a corresponding thread in the base of the splicing element. The
splicing
element is thus prevented from being pulled out of the connecting sleeve.
In a further embodiment, grooves are provided on the outer surface of the
connecting sleeve, said grooves extending around the connecting sleeve. Said
grooves are provided so as to show the user where to apply a squeezing or
crimping tool. A regular arrangement of the crimp position is important owing
to the
splicing segments in order to ensure as effective an electrical contact as
possible.
In an additional advantageous embodiment, at least one marking is provided on
the outer surface of the connecting sleeve. This marking is used so as to
align a
crimping tool. Crimping tools are usually embodied from multiple jaws that act
upon
the object that is to be crimped. Since it is not possible to exert force in a
uniform
manner over the entire circumference, force is thus introduced in sections.
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As a result, either dents are pressed into the contact element or a polygon is
pressed from for example a round form. A force is thus applied at multiple
sites by
the connecting sleeve onto the inner-lying conductor and this fixes said
conductor.
The marking is provided in order as far as possible to center said force onto
the
splicing segments, said force not being applied in a uniform manner over the
entire
circumference. Said marking is attached in such a manner that the maximum
force
is applied to the splicing segments by accordingly applying the crimping tool.
So that the marking that is provided in the embodiment is also provided on the
correct position on the connecting sleeve, it is necessary to insert the
slicing
element in the connecting sleeve in a non-rotatable manner. This can be
achieved
both by way of an additional bore hole in the connecting sleeve and a pin or a
screw that engages through the bore hole into a recess in the base of the
splicing
element.
A guiding groove would also be feasible in cooperation with a guiding
resilient
element, said guiding groove and resilient element being provided in the
splicing
element and inner surface of the connecting sleeve. It is also possible to
provide
both the groove in the splicing element and the resilient element on the
connecting
sleeve as well as a reversed solution.
It is furthermore advantageous to provide the entire inner surface of the
connecting sleeve with a rough to sharp-edged surface. It is thus possible
when
squeezing or crimping the connecting sleeve to roughen the strands of a
conductor and break through the layer of oxide that is not in direct contact
with
the splicing segments.
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In a specific embodiment of the electrical contact element in accordance with
the
invention, the splicing segments of the splicing element comprise a
particularly
advantageous form. The splicing segments are embodied so as to be wider in
the region of the opening of the connecting sleeve than in the region that is
facing the plugging side.
This form of the splicing segments is intended to crimp the individual strands
of
an electrical conductor in a more intense manner in the region of the
connecting
sleeve opening than in the region that is facing the plugging side. If a force
acts
upon a fastened electrical conductor, said force pulling said electrical
conductor
out of the connecting sleeve, the strands of the electrical conductor form a
bung
in the plugging side region and said bung can only be pulled through the
narrow
rear region with difficulty.
The invention relates to an electrical contact element for contacting an
electrical
strand conductor, wherein the electrical contact element comprises a
connecting
side and a plugging side. A splicing element is provided in a connecting
sleeve that
forms the connecting side so as to electrically contact an electrical strand
conductor in a more effective manner.
The splicing element is provided for the purpose of separating out the
individual
strands of the conductor, contacting as large as possible a surface of the
individual
strands, and penetrating the surface of the strands during a squeezing or
crimping
action. The invention provides that the strand conductors are electrically
contacted
in a reliable manner, wherein a surface of the individual strands that is not
suitable
for being contacted and is poorly conductive is penetrated.
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Exemplary embodiment
An exemplary embodiment of the invention is illustrated in the drawings and is
further explained hereinunder. In the figures:
Fig. 1 illustrates a sectional view of an electrical contact element
having a splicing element,
Fig. 2 illustrates a sectional view of an electrical contact element
without a splicing element,
Fig. 3 illustrates an electrical contact element having a splicing element
in a three-dimensional view,
Fig. 4 illustrates an individual splicing element in a three-dimensional
view, and
Fig. 5 illustrates an electrical contact element having an inserted
electrical conductor in a sectional view.
Figure 1 illustrates an electrical contact element 1 in a longitudinal view
along the
longitudinal axis A. A plugging side 2 of the electrical contact element 1 is
illustrated in the right region. A sleeve-shaped connecting side 3 is
illustrated in the
left region. The sleeve-shaped connecting side 3 is formed by a connecting
sleeve
4.
In accordance with the present invention, a splicing element 10 is provided
within
the connecting sleeve 4. The splicing element 10 essentially comprises a base
12
and also multiple splicing segments 11. The base 12 is provided on the
rearmost
region in the connecting sleeve 4.
In order to prevent the splicing element 10 from falling out, said splicing
element is
fixed by means of a fastening means 13 - in this case a screw - in the
electrical
contact element. In the specific embodiment that is illustrated, the screw is
guided
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from the plugging side 2 through a bore hole 5 in the electrical contact
element 4
and is screwed into the base 12 of the splicing element 10.
The splicing segments 11 of the splicing element 10 are distributed, facing
away
from the base 12, in the connecting sleeve 4. The splicing segments 11 extend
over almost the entire length of the connecting sleeve 4 in an advantageous
manner. In the illustrated embodiment -and also all the further figures-, the
splicing
element 10 comprises six splicing segments 11.
It is evident in the middle region of the splicing element 10 where the
splicing
segments 11 are attached to the base 12 that the material strength is less
than the
splicing segments 11 themselves. This advantageously provides a high degree of
flexibility of the splicing segments 11 with respect to the base 12.
The electrical contact element 1 as in figure us illustrated again in figure
2,
however without the splicing element 10. The bore hole 5 that connects the
plugging side 2 of the electrical contact element 1 to the connecting side 3
is easier
to identify in this figure.
A thread-type contour is evident on the inner side 18 in the interior of the
connecting sleeve 4 in figure 2. This advantageously sharp-edged contour is
likewise used to break layers of oxide on strands that are inserted. The
formation
of a thread type contour is merely evident in an exemplary manner. All other
types
of sharp-edged contours are also suitable and expedient.
Four flat grooves 17 are evident on the outer side of the connecting sleeve 4.
Said
flat grooves are used to identify the crimping regions. Said grooves 17
indicate to
the user the positions at which a crimping or squeezing tool is to be used.
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Figure 3 illustrates an electrical contact element 1 having a splicing element
10 in a
three-dimensional view with a view of the connecting side 3. The four grooves
17
that extend around the connecting sleeve 4 are also evident in this case and
said
grooves are used as a marking for a crimping or squeezing tool.
In addition, three flat areas 6 can be identified between the grooves 17. Said
flat
areas are also used as markings for a crimping or squeezing tool. In contrast
to the
grooves 17, however, said flat areas are not used for the position along the
electrical contact element 1 but rather for the angular position of the tool
in the
crimping region.
If a corresponding crimping tool that is tailored to the number of splicing
segments
11 with its crimping jaws is used, the flat area 6 thus marks the position of
a
splicing segment 11 in the connecting sleeve 4. As a consequence, it is
possible
for the maximum force and squeezing action of the crimping tool to act
precisely on
those positions behind which in each case a splicing segment 11 is located.
Figure 4 illustrates a splicing element 10 in a three-dimensional view. As is
already
evident in figure 1, the splicing element 10 is embodied from a base 12 and
the
splicing segments 11, 11', 11", 11", 11", 11" extend axially away from said
base.
A thread 19 is evident in the base 12 and said thread is used to fix the
splicing
element 10 by means of a screw as a fastening means 13 in an electrical
contact
element 1.
The splicing segments 11 are tapered in the connecting side region on their
inner
side in order to simplify the process of plugging the splicing element 10 onto
the
strands of an electrical conductor 20.
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In the base 12, the splicing element 10 comprises a bore hole 16. The bore
hole 16
is embodied in the illustrated embodiment as a lateral slot. This lateral slot
is used
to hold the splicing element 10 in the receiving sleeve 4 in a non-rotatable
manner.
For this purpose, a further fastening element can be pushed into a bore hole
15 in
the receiving sleeve 4. If the fastening means is guided through the bore hole
15
as far as into the bore hole 16, the splicing element 10 is prevented from
rotating in
the receiving sleeve 4.
Figure 5 illustrates an electrical contact element 1 having an inserted
electrical
conductor 20 in a sectional view. The sectional view extends in a transverse
manner through the electrical contact element 1.
The receiving sleeve 4 and also the splicing segments 11, 11', 11", 11", 11",
11" accommodated therein which are distributed on the inner surface 18 of the
receiving sleeve 4 around its circumference are evident.
Many individual strands are illustrated in the further, inner region of the
receiving
sleeve 4, said strands together forming the inserted electrical conductor 20.
The
individual strands are distributed between the splicing segments 11 so that a
large
part of the individual strands is advantageously in contact with one of the
splicing
segments 11. The higher the number of individual strands that are in contact
with
the splicing segments 11 or the inner surface 18, the higher the subsequent
electrical contact.
In addition, the flat area 6 is evident in figure 5. Said flat area is used -
as
mentioned above- to provide a mark for a crimping or squeezing tool. The flat
area
6 expediently lies directly outside a splicing segment.
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Electrical contact element
List of reference numerals
1. Electrical contact element
2. Plugging side
3. Connecting side
4. Connecting sleeve
5. Bore hole
6. Flat area
10. Splicing element
11. Splicing segment
12. Base
13. Fastening means
15. Bore hole
16. Bore hole
17. Groove
18. Inner surface
19. Thread
